Emerging trends in domestic homicide/femicide in Greece over the period 2010-2021.

Temporal trends in epidemiological parameters of domestic homicide and femicide in Greece over the last decade have not yet been studied. We conducted this study to fulfill this purpose. Specifically, we conducted a retrospective epidemiological study using 11-year data from the official nationwide Hellenic Police Archives and statistically analyzed data regarding domestic homicide and femicide. Overall, 1370 records of homicides among which 236 domestic homicides were identified. The pattern emerging from the statistical results of the present study highlighted the phenomenon of femicide as the gravest current issue to be interpreted and addressed. Nationally, the average number of homicides was 114.2/year, among which 19.7 domestic homicides. However, in 2021, while a decrease was recorded in homicides in general to 89 incidents per year, domestic homicides skyrocketed to 34 cases, reaching the highest annual number ever nationally recorded. On average, domestic homicides account for 18.2% of all homicides in Greece. In 2021, however, this percentage rose to 38.2%. The number of male victims of domestic homicide has declined over the years, with a further decline in 2021, in stark contrast to the number of women escalating over time and even more sharply in 2021. The proportion of female victims of domestic homicides in Greece was fourfold higher on average. The fact that cases of domestic homicide and femicide have received a lot of media attention, the recent Greek financial crisis, as well as increased alcohol and drug consumption due to the COVID-19 pandemic constitute possible aggravating factors.

[Functional and morphological disorders of taste and olfaction in COVID-19 patients]. / Funktionelle und morphologische Geschmacks- und Geruchsstörungen bei COVID-19-Patienten.

OBJECTIVE: This study aimed to test the prevalence and evolution of acute olfactory and gustatory functional impairment and their morphologic correlates in COVID-19 patients who require hospitalization due to COVID-19-related respiratory conditions. METHODS: Included were 53 consecutive hospitalized patients (23 males, 30 females; age 42.54 ± 10.95 years) with an RT-PCR-confirmed COVID-19 diagnosis. Patients were examined twice: just after hospital discharge and 4-6 weeks later. Electrogustometric (EGM) thresholds at the tongue area supplied by the chorda tympani, at the soft palate, and in the region of the vallate papillae were recorded bilaterally. Olfaction was examined by Sniffin' sticks (Burghardt GmbH, Wedel, Germany). The patients' nasal and oral mucosa (fungiform papillae, fpap) were examined by contact endoscopy. Findings were compared to those of 53 healthy individuals matched for sex and age (23 males, 30 females; age 42.90 ± 10.64 years). RESULTS: EGM thresholds in patients were significantly higher than those of healthy subjects at both timepoints. EGM thresholds at the second measurement were significantly lower than those at the first measurement. Accordingly, patient-reported gustatory outcomes were improved at the second measurement. The same pattern was found using Sniffin' sticks. Significant alterations in form and vascularization of fPap were detected in patients, especially at the first instance. Interestingly we did not observe any significant changes in the morphology and vascularization of nasal mucosa. CONCLUSION: COVID-19 affects both gustatory and olfactory functions. In parallel, it also affects the structure and vascularization of both nasal and oral mucosa, albeit the nasal mucosa to a much lesser, non-significant extent. Our findings suggest that COVID-19 may cause a mild to profound neuropathy of multiple cranial nerves.

The emotional burden of the SARS-CoV-2 pandemic on medical students in Greece

Everyday human life has recently been affected worldwide by the SARS-CoV-2 pandemic. Medical students were found to be a vulnerable population, facing many challenges with the temporary suspension of clinical activities, as well as their confrontation with violent changes in their chosen profession. The purpose of the present study is to record and detect possible signs of emotional burden on the psychological profile of northern Greek medical students in the second wave of the European pandemic at the hitherto culmination point. 342 medical students completed a questionnaire investigating some very rough and easily self-reported affective psychiatric symptoms and their responses were statistically evaluated. The results disclosed experienced emotional burden among medical students with a general exacerbation of various non-specific affective symptoms, but a decrease in suicidal ideation and auto-destructiveness was nevertheless observed. On the contrary, a moderate increase in wishes for illness was noted among medical students. Findings of emotional burden were disclosed among medical students with a general worsening of various non-specific affective symptoms in turn connoting feelings of discomfort in adapting to the multiple constraints and fear of insecurity for the newly-formed reality created by the outbreak of the new coronavirus pandemic. (PsycInfo Database Record (c) 2022 APA, all rights reserved)

Population Genomics Insights into the First Wave of COVID-19.

Full-genome-sequence computational analyses of the SARS-coronavirus (CoV)-2 genomes allow us to understand the evolutionary events and adaptability mechanisms. We used population genetics analyses on human SARS-CoV-2 genomes available on 2 April 2020 to infer the mutation rate and plausible recombination events between the Betacoronavirus genomes in nonhuman hosts that may have contributed to the evolution of SARS-CoV-2. Furthermore, we localized the targets of recent and strong, positive selection during the first pandemic wave. The genomic regions that appear to be under positive selection are largely co-localized with regions in which recombination from nonhuman hosts took place. Our results suggest that the pangolin coronavirus genome may have contributed to the SARS-CoV-2 genome by recombination with the bat coronavirus genome. However, we find evidence for additional recombination events that involve coronavirus genomes from other hosts, i.e., hedgehogs and sparrows. We further infer that recombination may have recently occurred within human hosts. Finally, we estimate the parameters of a demographic scenario involving an exponential growth of the size of the SARS-CoV-2 populations that have infected European, Asian, and Northern American cohorts, and we demonstrate that a rapid exponential growth in population size from the first wave can support the observed polymorphism patterns in SARS-CoV-2 genomes.

Generalized linear models provide a measure of virulence for specific mutations in SARS-CoV-2 strains.

This study aims to highlight SARS-COV-2 mutations which are associated with increased or decreased viral virulence. We utilize genetic data from all strains available from GISAID and countries' regional information, such as deaths and cases per million, as well as COVID-19-related public health austerity measure response times. Initial indications of selective advantage of specific mutations can be obtained from calculating their frequencies across viral strains. By applying modelling approaches, we provide additional information that is not evident from standard statistics or mutation frequencies alone. We therefore, propose a more precise way of selecting informative mutations. We highlight two interesting mutations found in genes N (P13L) and ORF3a (Q57H). The former appears to be significantly associated with decreased deaths and cases per million according to our models, while the latter shows an opposing association with decreased deaths and increased cases per million. Moreover, protein structure prediction tools show that the mutations infer conformational changes to the protein that significantly alter its structure when compared to the reference protein.

Phylogenetic Analysis of SARS-CoV-2 Data Is Difficult.

Numerous studies covering some aspects of SARS-CoV-2 data analyses are being published on a daily basis, including a regularly updated phylogeny on nextstrain.org. Here, we review the difficulties of inferring reliable phylogenies by example of a data snapshot comprising a quality-filtered subset of 8,736 out of all 16,453 virus sequences available on May 5, 2020 from gisaid.org. We find that it is difficult to infer a reliable phylogeny on these data due to the large number of sequences in conjunction with the low number of mutations. We further find that rooting the inferred phylogeny with some degree of confidence either via the bat and pangolin outgroups or by applying novel computational methods on the ingroup phylogeny does not appear to be credible. Finally, an automatic classification of the current sequences into subclasses using the mPTP tool for molecular species delimitation is also, as might be expected, not possible, as the sequences are too closely related. We conclude that, although the application of phylogenetic methods to disentangle the evolution and spread of COVID-19 provides some insight, results of phylogenetic analyses, in particular those conducted under the default settings of current phylogenetic inference tools, as well as downstream analyses on the inferred phylogenies, should be considered and interpreted with extreme caution.